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Summary Anatomy Item Literature (4897) Expression Attributions Wiki
XB-ANAT-3713

Papers associated with left (and ccnb1)

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Foxm1 regulates neural progenitor fate during spinal cord regeneration., Pelzer D., EMBO Rep. September 6, 2021; 22 (9): e50932.                        

ZC3HC1 Is a Novel Inherent Component of the Nuclear Basket, Resident in a State of Reciprocal Dependence with TPR., Gunkel P., Cells. July 30, 2021; 10 (8):               

The neurodevelopmental disorder risk gene DYRK1A is required for ciliogenesis and control of brain size in Xenopus embryos., Willsey HR., Development. June 22, 2020; 147 (21):                             

Translational Control of Xenopus Oocyte Meiosis: Toward the Genomic Era., Meneau F., Cells. June 19, 2020; 9 (6):             

CDC20B is required for deuterosome-mediated centriole production in multiciliated cells., Revinski DR., Nat Commun. November 7, 2018; 9 (1): 4668.              

Efficient translation of Dnmt1 requires cytoplasmic polyadenylation and Musashi binding elements., Rutledge CE., PLoS One. February 19, 2014; 9 (2): e88385.        

A genome-wide survey of maternal and embryonic transcripts during Xenopus tropicalis development., Paranjpe SS., BMC Genomics. November 6, 2013; 14 762.              

Gas2l3, a novel constriction site-associated protein whose regulation is mediated by the APC/C Cdh1 complex., Pe'er T., PLoS One. January 1, 2013; 8 (2): e57532.          

The subcellular localization of cyclin B2 is required for bipolar spindle formation during Xenopus oocyte maturation., Yoshitome S., Biochem Biophys Res Commun. June 15, 2012; 422 (4): 770-5.    

Transient expression of Ngn3 in Xenopus endoderm promotes early and ectopic development of pancreatic beta and delta cells., Oropeza D., Genesis. March 1, 2012; 50 (3): 271-85.                        

Nanos1 functions as a translational repressor in the Xenopus germline., Lai F., Mech Dev. January 1, 2011; 128 (1-2): 153-63.    

Endoplasmic reticulum remodeling tunes IP₃-dependent Ca²+ release sensitivity., Sun L., PLoS One. January 1, 2011; 6 (11): e27928.            

Xmc mediates Xctr1-independent morphogenesis in Xenopus laevis., Haremaki T., Dev Dyn. September 1, 2009; 238 (9): 2382-7.            

Roles of Greatwall kinase in the regulation of cdc25 phosphatase., Zhao Y., Mol Biol Cell. April 1, 2008; 19 (4): 1317-27.                        

Genome-wide analysis demonstrates conserved localization of messenger RNAs to mitotic microtubules., Blower MD., J Cell Biol. December 31, 2007; 179 (7): 1365-73.          

Role for non-proteolytic control of M-phase-promoting factor activity at M-phase exit., D'Angiolella V., PLoS One. February 28, 2007; 2 (2): e247.          

Differences in regulation of the first two M-phases in Xenopus laevis embryo cell-free extracts., Chesnel F., Dev Biol. September 15, 2005; 285 (2): 358-75.          

Inhibition of the anaphase-promoting complex by the Xnf7 ubiquitin ligase., Casaletto JB., J Cell Biol. April 11, 2005; 169 (1): 61-71.              

The spindle assembly checkpoint is not essential for CSF arrest of mouse oocytes., Tsurumi C., J Cell Biol. December 20, 2004; 167 (6): 1037-50.                

DNA replication checkpoint control of Wee1 stability by vertebrate Hsl7., Yamada A., J Cell Biol. December 6, 2004; 167 (5): 841-9.              

Ca(2+)(cyt) negatively regulates the initiation of oocyte maturation., Sun L., J Cell Biol. April 1, 2004; 165 (1): 63-75.              

A maternal form of the phosphatase Cdc25A regulates early embryonic cell cycles in Xenopus laevis., Kim SH., Dev Biol. August 15, 1999; 212 (2): 381-91.            

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